Heat exchanger

1 . A heat exchanger comprising: a plurality of flat tubes that stack in a direction vertical to a flow direction of refrigerant flowing inside thereof; a header to which the plurality of flat tubes is connected at one end; an inflow plate that separated a refrigerant inflow portion and a lower circulation portion provided above the refrigerant inflow portion in the header; a vertical dividing plate that separated the lower circulation portion and an upper circulation portion provided above the lower circulation portion in the header; a lower dividing plate that is arranged parallel to a stack direction of the plurality of flat tubes to divide the lower circulation portion into a lower ascent path on an internal side and a lower descent path of an external side; a lower accessway that connects the lower ascent path and the lower descent path of the lower circulation portion between the inflow plate and the lower dividing plate; an upper dividing plate that is arranged parallel to the stack direction of the plurality of flat tubes to divide the upper circulation portion into an upper ascent path provided on at least part of a leeward side, and an upper descent path provided at least on a windward side; and an upper accessway that connects the upper ascent path and the upper descent path of the upper circulation portion, wherein the inflow plate includes an ejection hole that ejects refrigerant, on a leeward side and an internal side, and the vertical dividing plate includes a first passing port that lets refrigerant through, on a leeward side and an internal side, and a second passing port that lets refrigerant through, at least on a windward external side. 2 . The heat exchanger according to claim 1 , wherein the ejection hole of the inflow plate is located between the lower dividing plate and one end side of the plurality of flat tubes in a cross-sectional view. 3 . The heat exchanger according to claim 1 , wherein a lower end of the lower dividing plate of the lower circulation portion is located inferiorly to a lowermost flat tube of the plurality of flat tubes. 4 . The heat exchanger according to claim 1 , wherein the upper dividing plate is formed by a first dividing portion that divides an internal side of the upper circulation portion into windward and leeward, and a second dividing portion that divides a leeward side of the upper circulation portion into an external side and an internal side, in such a manner that a cross-section becomes an L-shape, and the upper ascent path is arranged on a leeward side and an internal side, and the upper descent path is arranged on a windward side or a leeward external side.